KR20120034928A - A measuring and responding system about the water quality in water distribution system - Google Patents

Abstract

PURPOSE: A system for measuring water quality of a water channel is provided to measure water quality in real time and to alarm in case of abnormality of water quality value. CONSTITUTION: A system for measuring and responding to water quality of a water pipe channel comprises: a water quality measuring unit for measuring water quality of potable water by being connected at one side; a data storage unit(30) for storing the value measured in the water quality measuring unit; a central control unit(40) having built-in data analysis algorithm; a data display unit(50) for displaying data by being connected in the central control unit; an alarm unit(60) which alarms in case of abnormal value; and a drain valve(12) and drain channel(13) for discharging potable water to the outside.

Description

A measuring and responding system about the water quality in water distribution system

The present invention relates to a water pipe quality measurement and response system, and more particularly, on one side of the water pipe flowing through the constant water quality measurement unit, data storage unit, the central control unit with a built-in data analysis algorithm, the water quality of the pipeline in real time In addition, the water pipe can be characterized in that the contaminated water can be discharged quickly when water pollution is detected, and the water can be quickly prevented from spreading the contaminated water and the water can be effectively managed. A measurement and response system.

In general, the tap water is a systematic water supply system whose main purpose is health and hygiene and digestion, and the supply of drinking water by pipeline is called tap water.

As mentioned above, the water supply is a supply of drinking water, so very demanding water quality management is required, and the water quality management does not end with a water quality inspection in the water production facility, but damage due to rust in the pipeline during transportation to the consumer, or residual chlorine. The damage caused by the propagation of microorganisms may be caused by the disappearance of biomass. Therefore, the route supplied to consumers should be carefully managed.

In order to effectively manage the water quality management of the water supply as described above, a water quality measuring apparatus is required. Looking at the prior art, a water quality measuring apparatus has been developed that is installed on one side of a pipeline to measure the water quality of the constant flowing through the pipeline. have.

Referring to the conventional water quality measuring device, a water sampling unit for sampling a constant, a water quality measuring unit for measuring constants collected through the water collecting unit with various sensors, and a communication unit for transmitting water quality measurement values measured through the water quality measuring unit If necessary, an alarm unit is installed, and if an abnormal value is detected in the water quality measurement value, the alarm is configured.

The conventional water quality measuring device having the above-described configuration has been developed only for the purpose of measuring and monitoring the water quality of the constant, and thus only generates an alarm when an abnormal value is generated in the water quality measurement value. There are disadvantages that the response may be delayed due to various situations.

Accordingly, when considering the characteristics of tap water having a high feed speed with a high water pressure, a prompt response is required as soon as the contamination of the constant water is detected, but the conventional water quality measuring apparatus has the limitation as described above, There is an urgent need to develop a configuration that can respond quickly and automatically to the disappearance of residual chlorine.

The present invention has been made to solve the above problems, the water quality measurement unit is formed on one side of the pipe, the water quality measurement unit is connected to the central control unit with a data storage unit, data analysis algorithm, one side of the central control unit A communication unit is formed at the rear side so that the water quality of the constant water flowing through the pipeline can be easily grasped in real time. An alarm unit is formed at one side of the central control unit, and is connected to a dilution valve formed at one side of the pipeline so as to be interlocked. When the water is detected, an alarm is issued through the alarm unit, while the water valve is shut off and the contaminated water is quickly discharged to the outside through the drain valve formed at one side thereof. It is the first object of the present invention to provide.

In addition, by embedding a data analysis algorithm in the central control unit, the error value and the missing value of the water quality measurement value measured by the water quality measurement unit is excluded, and the mechanical error of the sensor is applied based on the water quality measurement value rather than the mistaken and missing value. In order to provide accurate water quality measurement values, as well as to analyze the patterns of the wrong side and missing values to automatically diagnose the problem of the measuring device to provide a water pipe quality measurement and response system characterized in that There is a second object of the present invention.

Hereinafter, to solve the present invention to achieve the above object.

First, the present invention includes: a water quality measuring unit connected to one side of a pipeline through which a constant flows and measuring the water quality of the constant; A data storage unit for storing the water quality measurement value measured by the water quality measurement unit; A central control unit having a data analysis algorithm embedded therein to filter the data stored in the data storage unit to extract accurate data, and to analyze a pattern of wrong and missing values to automatically diagnose a problem of the measuring device; A data display unit connected to the central control unit to display extracted data; An alarm unit connected to the central control unit to generate an alarm when an abnormal value is found in the water quality measurement value; A dilution valve connected to the central control unit to block a pipeline when an abnormal value is found in the water quality measurement value; A drain valve and a drain pipe for discharging the constant water blocked by the dividing valve to the outside; The water pipe consists of water quality measurement and response system.

In addition, the water quality measurement unit turbidity sensor, residual chlorine sensor, temperature sensor, pH (pH) sensor, electrical conductivity sensor, redox potential measuring device, chlorine ion measuring device, total organic carbon measuring device, corrosion rate, adhesion and biofilm Characterized in that it comprises a measuring device.

In addition, the inlet is formed between the pipe and the water quality measuring unit to introduce the constant of the water pipe to the water quality measuring unit, the inlet is characterized in that the valve, the bubble removing unit, the flow meter is sequentially formed.

In addition, one side of the inlet is formed with a water inlet connected to the central control unit, when an abnormal value is detected in the water quality measurement value, by operating the alarm unit and receiving a control command of the central control center, characterized in that to collect the constant or automatically do.

In addition, the refrigerating portion is formed on one side of the water collecting unit, characterized in that to prevent alteration of the sample collected.

In addition, the data analysis algorithm may apply uniform variance (1-sigma, 2-sigma, 3-sigma) to box-plot based on existing measurement data, or filter and interpolate using quartiles. In addition, measurement error and missing error of the data are characterized by using AR (Auto-Regressive) -filter and MA (Moving Average) -filter.

In addition, the data analysis algorithm applies a sensor error range to the measured value for a period of time excluding the wrong value and the missing value selected through data filtering based on the set water quality reference value, and applies the upper limit and the lower limit to deviate from it. Characterized in that the structure is made to judge.

More specifically, by applying the upper limit and the lower limit, it is determined that the deviation from the first water quality outlier, and the deviation from the water quality standard is characterized in that it is determined as the second water quality outlier.

The central control unit may further include a communication unit for transmitting the water quality measurement value measured by the water quality measuring unit to the central control center and receiving a control command from the central control center.

In addition, the central control unit is connected to the dilution valve of the pipeline, when an abnormal value is detected in the water quality measurement value, receiving the control command of the central control center through the communication unit to operate the distillation valve to block the pipeline and at the same time installed in the pipeline The water discharge valve may be discharged to the outside through the drain valve, or the water discharge valve may be automatically operated by the central control unit so that the contaminated or residual chlorine may be discharged to the outside through the drain valve. Characterized in that it is made.

The present invention having the above-described configuration can expect the following effects.

First, it is formed on one side of the pipe through which the constant flows, so that the water quality of the constant can be measured in real time, but if an abnormality is found in the water quality measurement value, an alarm is issued and when the water quality worsens and the water quality standard is exceeded, the dilution valve This function is designed to prevent the spread of contaminated constants quickly and to prevent the tangible and intangible damage caused by contaminated constants by quickly operating the equipment to prevent the flow of downstream water while blocking the flow downstream. It has a big effect.

Second, a bubble removing device is installed at the inlet part of the constant flowing through the pipeline to remove bubbles that interfere with water quality measurement, and the data analysis algorithm measured by the water quality measurement unit. As a result, it is possible to calculate more accurate water quality measurement values, thereby enabling accurate and efficient response.

Third, by recognizing the patterns of false positives and missing values selected through the data analysis algorithm, and by automatically diagnosing false positives and missing frequencies of the corresponding measuring device, it is possible to efficiently manage the measuring device as well as the alarm device. By preventing frequent operation, it is effective to increase the reliability of the measuring device.

1 is a configuration circuit diagram of a water conduit water quality measurement and corresponding device according to the present invention
Figure 2 is an exemplary view of the water pipe water quality measurement and counterpart according to the present invention
Figure 3 is a detailed view of the inlet of the water pipe water quality measurement and countermeasures according to the present invention
Figure 4 is a detailed view of the water quality measurement unit of the water pipe and the water quality measurement and the corresponding device according to the present invention
5 is a detailed view of the central control unit of the water pipe and the water quality measurement and countermeasure device according to the present invention.
6 is an operation example of the water separator valve by the central control unit of the present invention

Based on the accompanying drawings, a specific configuration of the present invention for providing the above-described solutions and effects will be described in more detail.

First, the present invention is connected to one side of the constant flow pipe 10, the water quality measuring unit 20 for measuring the water quality of the constant; A data storage unit 30 for storing the water quality measurement value measured by the water quality measurement unit 20; Central control unit 40 having a built-in data analysis algorithm 41 for automatically diagnosing the problem of the measuring device by filtering the data stored in the data storage unit 30 to extract the correct data and to analyze the patterns of wrong and missing values Wow; A data display unit 50 connected to the central control unit 40 to display extracted data; An alarm unit 60 connected to the central control unit 40 to generate an alarm when an abnormal value is found in the water quality measurement value; A dilution valve 11 connected to the central control unit 40 to block the conduit 10 when an abnormal value is found in the water quality measurement value; A drain valve 12 and a drain pipe 13 for discharging the constant water blocked by the dividing valve 11 to the outside; It is made of, the dilution valve 11, the drain valve 12, the drain pipe 13 is preferably installed near the water quality measurement unit or the downstream point.

The water quality measurement unit 20 of the configuration as described above is connected to one side of the pipeline 10 to measure the water quality of the constant flowing through the pipeline 10, the water quality measurement unit 20 is the data storage unit 30 ), The water quality measurement value measured by the water quality measurement unit 20 is stored in the data storage unit 30.

Here, an inflow portion 70 is formed between the conduit 10 and the water quality measurement unit 20 to allow a portion of the constant flowing through the conduit 10 to enter the water quality measurement unit 20. The unit 20 includes various sensors for measuring the water quality of the introduced sample water and a drain 26 for discharging the sample water passed through the various sensors to the outside.

At this time, the inlet 70 is a valve 71 for lowering the water pressure of the sample water flowing in, the bubble removing unit 72, the bubble formed in the rear side of the valve 71 to remove the bubbles contained in the sample water, bubbles It is composed of a flow meter (73) for measuring the inflow amount flowing into the water quality measurement unit is removed.

The reason why the valve 71 is formed in the inlet part 70 is to lower the water pressure of the sample water transferred at a high pressure in the conduit 10 so that the sample water stably flows into the water quality measuring part 20. The reason why the bubble removing unit 72 is formed is that bubbles contained in the sample water interfere with accurate water quality measurement of the sensor, so that the bubbles are removed to further increase the accuracy of the water quality measurement value by the sensor.

In addition to the valve 71 formed at the beginning of the inlet 70, by forming the valve 20a for the measuring unit between the end of the inlet 70 and the water quality measuring unit 20, the water quality measuring unit ( 20) to adjust the water pressure of the sample water flowing into the sample water so that the water quality measuring unit 20 is measured stably.

The various sensors constituting the water quality measuring unit 20 include a turbidity sensor 21, a residual chlorine sensor 22, a temperature sensor 23, an acidity sensor 24, an electrical conductivity sensor 25, and the like. The sample water introduced through the inlet 70 passes through the sensors in order and is discharged through the drain 26.

Here, the turbidity sensor 21 measures the turbidity of the sample water by the scattered light, the measurement range is 0.01 to 40 NTU (Nepthelometric Turbidity Unit), the error is ± 5%.

In addition, the residual chlorine sensor 22 measures the residual chlorine contained in the sample water in a polaroid manner, the measurement range is 0.01 to 20 mg / l, the error is ± 3 percent.

In addition, the temperature sensor 23 is a general temperature sensor 23, the measurement range is 0.01 to 100 degrees Celsius, the error is ± 5 degrees Celsius.

In addition, the acidity (pH) sensor 24 measures the acidity (pH) of the sample water by the glass composite electrode method, the measuring range is 0.01 to 14pH, the error is ± 0.01pH (peh).

In addition, the conductivity sensor 25 measures the conductivity of the sample water, the measurement range is 0.01 to 2000μS / cm, the error is ± 1%.

The sensors constituting the water quality measuring unit 20 are not limited to the above measuring methods, measuring ranges, and sensors with errors, and sensors of various measuring methods, measuring ranges and errors are also available.

In addition, the water quality measuring unit 20 measures water quality measurement items such as a redox potential measuring device, a chlorine ion measuring device, a total organic carbon measuring device, a corrosion rate measuring device, an adhesion degree, and a biofilm measuring device in addition to the above sensors. Any configuration can be provided as long as the device is capable of doing so.

On the other hand, the water quality measurement value measured by the water quality measurement unit 20 is stored in the data storage unit 30 as described above, the data storage unit 30 is a central control unit with a built-in data analysis algorithm 41 Connected to 40, the false positives and missing values of the water quality measurement values measured by the water quality measurement unit 20 through the data analysis algorithm 41 are excluded, and based on other water quality measurements, the sensor or It is possible to extract relatively accurate water quality measurement values by applying the mechanical error of the measuring device, as well as to analyze the water quality change pattern based on the water quality measurement value to automatically determine the state of the sensor or measuring device constituting the water quality measurement unit 20. Diagnosis and display it on the data display unit 50.

At this time, the central control unit 40 should be set to the reference value of the water quality measurement value, which can be input through the set value input unit 100, the reference value of the water quality measurement value can be arbitrarily set according to the situation.

Here, the data analysis algorithm 41 uses a conventional data analysis method. More specifically, the existing measurement data are statistically arranged to provide a constant variance (1-sigma, 2-sigma, 3-sigma) in a box-plot. It can be applied or filtered and interpolated using quartail, and it is desirable to use AR (Auto-Regressive) filter and MA (Moving Average) filter for data measurement and missing error.

In addition, the central control unit 40 is connected to the data display unit 50 converts the water quality measurement value accurately extracted within the error range into a digital signal for easy display from the outside through the data display unit 50.

On the other hand, when the water quality measurement value measured by the water quality measurement unit 20 is determined to be an abnormal water quality through the data storage unit 30 and the central control unit 40, the water collection unit formed on one side of the inflow unit 70 ( 80) is operated to collect the sample water at regular time intervals, and the number of sample water collection tanks 82 containing the sample water is provided according to the number of sampling.

The sample water collection tank 82 provided according to the number of sampling times is vertically formed at a predetermined interval around the rotating part rotating about a vertical axis, and the upper surface thereof is formed to be open, and rotates at each sampling time interval while rotating each sampling water collection tank ( Sample water is to be contained through the open top of 82).

In addition, the refrigeration unit 81 is formed on one side of the water collecting unit 80 so that the collected sample water is stored intact.

In addition, when the water quality measurement value is finally determined to be an abnormal water quality value through the data storage unit 30 and the central control unit 40, the central control unit 40 operates the alarm unit 60 to generate an alarm and at the same time the communication unit. (90) transmits the water quality measurement value to the central control center (A).

The central control center (A) receiving the alarm and the abnormal value of the water quality measurement value gives a control command to block the dividing valve 11 of the pipeline 10, the central control unit received through the communication unit 90 ( 40 operates the distillation valve 11 to block the constant flow of the conduit 10, and the drain valve 12 and the drain pipe 13 formed at one side of the conduit 10 in which the distillation valve 11 is blocked. The polluted water is discharged to the outside, and the shutoff of the distillation valve 11 and the opening of the drain valve 12 are determined by the central control unit 40 without receiving a control command from the central control center A. It is also possible to open the dividing valve 11.

In addition, this countermeasure system is applied to the remaining chlorine shortage section due to excessive residence time in the end of the water pipe due to the nature of the water pipe, and can be utilized in the field that can maintain the proper residual chlorine by excluding the number of water stayed in the pipeline at regular intervals.

Although the present invention has been described with reference to the specific examples as described above, it is a matter of course that various modifications can be made without departing from the technical spirit of the present invention.

A: Central Control Center 10: Pipeline
11: distillation valve 12: drain valve
13: drain pipe
20: water quality measuring unit 20a: valve for the measuring unit
21: turbidity sensor 22: residual chlorine sensor
23 temperature sensor 24 acidity sensor
25: conductivity sensor 30: data storage unit
40: central control unit 41: data analysis algorithm
42: set value input section 50: data display section
60: alarm part 70: inlet part
71: valve 72: bubble removing unit
73: flow meter 80: water collection
80a: Water collecting valve 81: Refrigerating unit
82: water collection tank 90: communication unit

Claims (9)

A water quality measuring unit 20 connected to one side of the pipe 10 through which the constant flows and measuring the quality of the constant; A data storage unit 30 for storing the water quality measurement value measured by the water quality measurement unit 20; Central control unit 40 having a built-in data analysis algorithm 41 for automatically diagnosing the problem of the measuring device by filtering the data stored in the data storage unit 30 to extract the correct data and to analyze the patterns of wrong and missing values Wow; A data display unit 50 connected to the central control unit 40 to display extracted data; An alarm unit 60 connected to the central control unit 40 to generate an alarm when an abnormal value is found in the water quality measurement value; A dilution valve 11 connected to the central control unit 40 to block the conduit 10 when an abnormal value is found in the water quality measurement value; A drain valve 12 and a drain pipe 13 for discharging the constant water blocked by the dividing valve 11 to the outside; Water pipe measurement and response system, characterized in that consisting of.
The method of claim 1,
The water quality measurement unit 20 is characterized in that it comprises a turbidity sensor 21, residual chlorine sensor 22, temperature sensor 23, acidity (pH) sensor 24, electrical conductivity sensor 25 Water pipe measurement and response system.
The method of claim 1,
An inlet 70 is formed between the conduit 10 and the water quality measuring unit 20 to introduce a constant of the conduit 10 into the water quality measuring unit 20, and the inlet 70 is a valve 71. ), Bubble removal unit 72, the flow meter 73 is connected to the water supply line, characterized in that the water quality measurement and response system.
The method of claim 3, wherein
One side of the inlet 70 is formed with a water collecting unit 80 connected to the central control unit 40, when an abnormal value is detected in the water quality measurement value, the control of the central control center (A) with the operation of the alarm unit 60 A water quality measurement and response system with a water pipe, characterized in that the sample water is collected upon command or the sample water can be automatically collected.
The method of claim 4, wherein
Cooling unit water quality measurement and response system, characterized in that the refrigerating portion 81 is formed on one side of the water collecting portion (80) to prevent the deterioration of the sample collected.
The method of claim 1,
The data analysis algorithm 41 may apply a constant variance (1-sigma, 2-sigma, 3-sigma) to a box-plot based on existing measurement data, or may filter and interpolate using a quartile. Water quality measurement and countermeasure system for water pipes characterized by using AR (Auto-Regressive) -filter and MA (Moving Average) -filter for measurement and missing errors of data.
The method of claim 1,
The data analysis algorithm 41 applies the inherent error range of the sensor to the measured values except the wrong and missing values selected through data filtering based on the set water quality reference value, and applies the upper and lower limits to the water quality. Water pipe measurement and response system, characterized in that the structure consisting of the judged to be outliers.
The method of claim 1,
The communication unit 90 transmits a water quality measurement value measured by the water quality measurement unit 20 to the central control center A and receives a control command from the central control center A on one side of the central control unit 40. ) Water quality measurement and response system, characterized in that further comprises.
The method according to claim 1 or 8,
The central control unit 40 is connected to the dilution valve 11 of the pipeline 10, when an abnormal value is detected in the water quality measurement value, receives the control command from the central control center (A) through the communication unit 90 the dilution valve Operate (11) to shut off the conduit (10) and at the same time to discharge the water to the outside through the drain valve (12) installed in the conduit (10), or the water discharge valve (11) by the central control unit (40) Water pipe and water quality measurement and response system, characterized in that the configuration is further configured to automatically discharge to the outside through the drain valve (12) to allow the automatic operation of the contaminated or residual chlorine disappeared.

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